E. Ciszak et Gd. Smith, CRYSTALLOGRAPHIC EVIDENCE FOR DUAL COORDINATION AROUND ZINC IN THE T(3)R(3) HUMAN INSULIN HEXAMER, Biochemistry, 33(6), 1994, pp. 1512-1517
The T(3)R(3) human insulin hexamer (T and R referring to extended and
alpha-helical conformations, respectively, of the first eight residues
of the B-chain), complexed to two zinc ions, crystallizes in space gr
oup R3 with hexagonal cell constants a = 80.64 and c = 37.78 Angstrom.
The structure has been refined to a residual of 0.172 using 9225 inde
pendent data to 1.6-Angstrom resolution. The asymmetric unit consists
of a TR dimer, and the insulin hexamer is generated by the action of t
he crystallographic 3-fold axis. The conformation of one insulin trime
r is nearly identical to that of the T-6 hexamer, while the other trim
er approximates that of the R(6) hexamer, except for the three N-termi
nal B-chain residues that adopt an extended rather than an alpha-helic
al conformation. Each of the two zinc ions, which lie on the crystallo
graphic 3-fold axis and exhibit two different, disordered coordination
geometries, is coordinated by the imidazole groups of three symmetry-
related B10 histidine residues. The coordination sphere of the zinc in
the T-3 trimer is either tetrahedral, with the fourth site filled by
a chloride ion, or octahedral, completed by three water molecules. The
coordination of the zinc in the 12-Angstrom narrow channel in the R(3
) trimer is tetrahedral, with either a second chloride ion or a water
molecule completing the coordination sphere. The putative off-axial zi
nc binding sites that result from the T-->R transition of monomer II d
o not contain zinc ion, but instead are filled with clusters of ordere
d water molecules. The observation that the T-state trimer contains zi
nc in both tetrahedral and octahedral geometries has important implica
tions for the interpretation of spectroscopic results.